{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Other networks analysis of GCN4"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Load modules\n",
    "import pandas as pd\n",
    "import pandas as pd\n",
    "import numpy as np\n",
    "import matplotlib.pyplot as plt\n",
    "import seaborn as sns\n",
    "import scipy.stats as stats\n",
    "import glob\n",
    "import gseapy as gp\n",
    "from gseapy import Biomart\n",
    "# yeast\n",
    "yeast = gp.get_library_name(organism='Yeast')"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {},
   "outputs": [],
   "source": [
    "def get_simple_yeast_names(ids):\n",
    "    bm = Biomart()\n",
    "    queries ={'ensembl_gene_id': ids } # need to be a dict object\n",
    "    results = bm.query(dataset='scerevisiae_gene_ensembl', filters = queries, attributes=['ensembl_gene_id', 'external_gene_name'])\n",
    "    gene_list_gene_name = results.dropna()['external_gene_name'].tolist()\n",
    "    return(gene_list_gene_name)\n",
    "\n",
    "def get_simple_yeast_correspondence(ids):\n",
    "    bm = Biomart()\n",
    "    queries ={'ensembl_gene_id': ids } # need to be a dict object\n",
    "    results = bm.query(dataset='scerevisiae_gene_ensembl', filters = queries, attributes=['ensembl_gene_id', 'external_gene_name'])\n",
    "    return(results)\n",
    "\n",
    "def get_gene_yeast_gene_name(gl, ngenes = 100):\n",
    "    bm = Biomart()\n",
    "    gene_list_gene_name = []\n",
    "    if len(gl)>ngenes:\n",
    "        print('WARNING: there are more than %d genes (%d tot)' %(ngenes, len(gl)))\n",
    "        for k,i in enumerate(range(len(gl)//ngenes)):\n",
    "            if k%5==0:\n",
    "                print('Iteration %d' %k)\n",
    "            gl_temp = gl[k*ngenes:(k+1)*ngenes]\n",
    "            glgn_temp = get_simple_yeast_names(gl_temp)\n",
    "            gene_list_gene_name = gene_list_gene_name + glgn_temp\n",
    "    else:\n",
    "        gene_list_gene_name = get_simple_yeast_names(gl)\n",
    "        \n",
    "    return(gene_list_gene_name)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Actual Expression Values and Perturbed networks"
   ]
  },
  {
   "attachments": {},
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Engineered strains\n",
    "Therefore, we constructed an array of prototrophic, diploid yeast strains with homozygous deletions of TFs that control\n",
    "distinct regulatory modules: \n",
    "\n",
    "1) NCR, The Nitrogen Catabolite Repression (NCR) pathway [dal80, gat1, gln1, gfz3], which is regulated principally by TORC1, consists of the TFs _GAT1_, _GLN3_, _DAL80_, and _GZF3_ ([Hofman-Bang, 1999](https://elifesciences.org/articles/51254#bib52)), and is responsible for suppressing the utilization of non-preferred nitrogen sources when preferred nitrogen sources are available.\n",
    "2) GAAC, The General Amino Acid Control (GAAC) pathway consists of the TF [_GCN4_] ([Hinnebusch, 2005](https://elifesciences.org/articles/51254#bib51)), and is responsible for activating the response to amino acid starvation, as detected by increases in uncharged tRNA levels.\n",
    "3) SPS-sensing, The Ssy1-Ptr3-Ssy5-sensing (SPS) pathway ([Ljungdahl, 2009](https://elifesciences.org/articles/51254#bib71)), consists of the TFs [_STP1_ and _STP2_], and is responsible for altering transporter expression\n",
    "4) the retrograde pathway [rtg1, rtg3] that coordinately control nitrogen-related gene expression in yeast, The retrograde pathway, consisting of the TF heterodimer _RTG1_ and _RTG3_, is responsible for altering expression of metabolic and biosynthetic genes in response to mitochondrial stress ([Jia et al., 1997](https://elifesciences.org/articles/51254#bib60); [Liao and Butow, 1993](https://elifesciences.org/articles/51254#bib70)) or environmental stress ([Ruiz-Roig et al., 2012](https://elifesciences.org/articles/51254#bib97))."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {},
   "outputs": [],
   "source": [
    "\n",
    "deletion_genes = ['dal80','dal81','dal82','gat1', 'gln3', 'gzf3', 'gcn4', 'stp1', 'stp2', 'rtg1', 'rtg3']\n",
    "#deletion_genes = ['dal80','gat1', 'gln3', 'gzf3', 'gcn4', 'stp1', 'stp2', 'rtg1', 'rtg3']\n",
    "\n",
    "gene_maps = {'dal81':'YIR023W', 'dal82':'YNL314W','dal80':'YKR034W','gat1':'YFL021W', 'gln3':'YER040W', 'gzf3':'YJL110C', 'gcn4':'YEL009C', 'stp1':'YDR463W', 'stp2':'YHR006W', 'rtg1':'YOL067C', 'rtg3':'YBL103C' }\n",
    "# gene_maps = {'dal80':'YKR034W','gat1':'YFL021W', 'gln3':'YER040W', 'gzf3':'YJL110C', 'gcn4':'YEL009C', 'stp1':'YDR463W', 'stp2':'YHR006W', 'rtg1':'YOL067C', 'rtg3':'YBL103C' }\n",
    "deletion_ids = [gene_maps[i] for i in deletion_genes]\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 150,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "WARNING: folder ../results/pseudobulk_perc02/gcn4_spcc/ already exists\n"
     ]
    },
    {
     "data": {
      "text/plain": [
       "'vfanfani/projects/bonobo_new_20240315/results/pseudobulk_perc02/networks/spcc/'"
      ]
     },
     "execution_count": 150,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# Cleaned and pseudobulked data\n",
    "params = {\n",
    "    'nonzero' : {'yeast_expression' : '../data/processed/pseudobulk_nonzero_logcounts.tsv',\\\n",
    "               'output_folder' : '../results/pseudobulk_nonzero/'},\\\n",
    "    'perc02' : {'yeast_expression': '../data/processed/pseudobulk_perc02_logcounts.tsv',\\\n",
    "              'output_folder' : '../results/pseudobulk_perc02/'}\n",
    "}\n",
    "\n",
    "choice = 'perc02'\n",
    "\n",
    "import os\n",
    "yeast_expression = params[choice]['yeast_expression']\n",
    "output_folder = params[choice]['output_folder']\n",
    "\n",
    "method = 'spcc'\n",
    "results_folder = output_folder + 'gcn4_'+ method + '/'\n",
    "if not os.path.exists(results_folder):\n",
    "    os.mkdir(results_folder)\n",
    "else:\n",
    "    print('WARNING: folder %s already exists' %results_folder)\n",
    "\n",
    "\n",
    "prefixes = {'sweet': 'vfanfani/projects/bonobo_new_20240315/results/pseudobulk_%s/sweet/networks/' %choice,\n",
    "            'bonobo': 'vfanfani/projects/bonobo_new_20240315/results/pseudobulk_%s/bonobo/' %choice,\n",
    "            'lioness': 'vfanfani/projects/bonobo_new_20240315/results/pseudobulk_%s/lioness/networks' %choice,\n",
    "            'spcc': 'vfanfani/projects/bonobo_new_20240315/results/pseudobulk_%s/networks/spcc/' %choice,}\n",
    "prefix = prefixes[method]\n",
    "prefix\n",
    "#expr = pd.read_csv(yeast_expression, sep = '\\t', index_col = 0)\n",
    "#expr"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 151,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "'../results/pseudobulk_perc02/gcn4_spcc/'"
      ]
     },
     "execution_count": 151,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "results_folder"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Let's check the expression of the deletion genes"
   ]
  },
  {
   "attachments": {},
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Now we are gonna read only the edges that correspond to the engineered deletions"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  },
  {
   "cell_type": "code",
   "execution_count": 152,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "file ../results/pseudobulk_perc02/gcn4_spcc/spccperturbed_networks.tsv exists\n"
     ]
    }
   ],
   "source": [
    "import boto3\n",
    "#BONOBO s3://jqlabusers/vfanfani/projects/bonobo_new_20240315/results/pseudobulk_perc02/sweet/networks/dal80_AmmoniumSulfate.txt\n",
    "#LIONESS s3://jqlabusers/vfanfani/projects/bonobo_new_20240315/results/pseudobulk_perc02/lioness/networks/lioness_dal80_AmmoniumSulfate.h5\n",
    "s3 = boto3.client('s3')\n",
    "sb = boto3.resource('s3')\n",
    "\n",
    "# check that file exists\n",
    "if os.path.exists(results_folder + method+ 'perturbed_networks.tsv'):\n",
    "    print('file %s exists' %(results_folder + method+ 'perturbed_networks.tsv'))\n",
    "    ddd =pd.read_csv(results_folder + method+ 'perturbed_networks.tsv', sep = '\\t', index_col = 0)\n",
    "else:\n",
    "    print('file %s does not exist' %(results_folder + method+ 'perturbed_networks.tsv'))\n",
    "\n",
    "\n",
    "    net_perturbed = pd.DataFrame()\n",
    "\n",
    "    print(method)\n",
    "    BUCKET_NAME = 'jqlabusers'\n",
    "    my_bucket = sb.Bucket('jqlabusers')\n",
    "    # OBJECT_NAME = 'vfanfani/projects/bonobo_new_20240315/results/pseudobulk_perc02/sweet/networks/dal80_AmmoniumSulfate.txt'\n",
    "    for k,objects in enumerate(my_bucket.objects.filter(Prefix=prefix)):\n",
    "        filename = objects.key.split('/')[-1]\n",
    "        \n",
    "        if method=='sweet':\n",
    "            sample = filename[:-4]\n",
    "            print(sample)\n",
    "            s3.download_file(BUCKET_NAME, objects.key, 'temp.txt')\n",
    "            df = pd.read_csv('temp.txt', sep = '\\t')\n",
    "            df.columns = ['gene1', 'gene2',sample]\n",
    "            df = df.loc[df['gene1'].isin(deletion_ids) | df['gene2'].isin(deletion_ids)]\n",
    "        elif method=='bonobo':\n",
    "            sample = filename[:-3]\n",
    "            print(filename)\n",
    "            print(sample)\n",
    "            s3.download_file(BUCKET_NAME, objects.key, 'temp.h5')\n",
    "            df = pd.read_hdf('temp.h5')\n",
    "            print(len(df))\n",
    "            df.index = df.columns\n",
    "            df = df.loc[:,deletion_ids]\n",
    "            df = df.melt(ignore_index = False).reset_index()\n",
    "            df.columns = ['gene1', 'gene2',sample]\n",
    "        elif method=='lioness':\n",
    "            if filename.endswith('.h5'):\n",
    "                sample = filename[8:-3]\n",
    "                print(sample)\n",
    "                s3.download_file(BUCKET_NAME, objects.key, 'temp.h5')\n",
    "                df = pd.read_hdf('temp.h5')\n",
    "                print(len(df))\n",
    "                df.index = df.columns\n",
    "                df = df.loc[:,deletion_ids]\n",
    "                df = df.melt(ignore_index = False).reset_index()\n",
    "                df.columns = ['gene1', 'gene2',sample]\n",
    "        elif method=='spcc':\n",
    "            if filename.endswith('.h5'):\n",
    "                sample= filename[17:-3]\n",
    "                print(sample)\n",
    "                s3.download_file(BUCKET_NAME, objects.key, 'temp.h5')\n",
    "                df = pd.read_hdf('temp.h5')\n",
    "                df = df.loc[df['gene1'].isin(deletion_ids) | df['gene2'].isin(deletion_ids)]\n",
    "            else:\n",
    "                df = pd.DataFrame()\n",
    "            \n",
    "        #df.columns = ['gene1', 'gene2',sample]\n",
    "        \n",
    "        if len(net_perturbed)==0:\n",
    "            net_perturbed = df\n",
    "        else:\n",
    "            net_perturbed = net_perturbed.merge(df, how = 'outer', on = ['gene1', 'gene2'])\n",
    "\n",
    "    net_perturbed.to_csv(results_folder + method+ 'perturbed_networks.tsv', sep = '\\t', index = False)\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 153,
   "metadata": {},
   "outputs": [],
   "source": [
    "#ddd = pd.read_csv(results_folder + method+ 'perturbed_networks.tsv', sep = '\\t')\n",
    "if method=='bonobo':\n",
    "    ddd = ddd.reset_index()\n",
    "    ddd = ddd.loc[:,['gene1','gene2']+[i for i in ddd.columns if i.startswith('bonobo')]]\n",
    "    ddd.rename(columns = {i:i[7:] for i in ddd.columns if i.startswith('bonobo')}, inplace = True)\n",
    "    ddd = ddd[ ddd['gene1']!=ddd['gene2'] ]\n",
    "    ddd.shape\n",
    "elif method=='lioness':\n",
    "    ddd = ddd.reset_index()\n",
    "    ddd = ddd[ ddd['gene1']!=ddd['gene2'] ]\n",
    "    ddd.drop(columns=['stp2_YPEtOH_y','gzf3_YPEtOH_y'], inplace = True)\n",
    "    ddd = ddd.rename(columns = {'stp2_YPEtOH_x':'stp2_YPEtOH', 'gzf3_YPEtOH_x':'gzf3_YPEtOH'})\n",
    "    \n",
    "else:\n",
    "    ddd= ddd.reset_index()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 154,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>gene1</th>\n",
       "      <th>gene2</th>\n",
       "      <th>WT(ho)_AmmoniumSulfate</th>\n",
       "      <th>WT(ho)_CStarve</th>\n",
       "      <th>WT(ho)_Glutamine</th>\n",
       "      <th>WT(ho)_MinimalEtOH</th>\n",
       "      <th>WT(ho)_MinimalGlucose</th>\n",
       "      <th>WT(ho)_Proline</th>\n",
       "      <th>WT(ho)_Urea</th>\n",
       "      <th>WT(ho)_YPD</th>\n",
       "      <th>...</th>\n",
       "      <th>stp2_CStarve</th>\n",
       "      <th>stp2_Glutamine</th>\n",
       "      <th>stp2_MinimalEtOH</th>\n",
       "      <th>stp2_MinimalGlucose</th>\n",
       "      <th>stp2_Proline</th>\n",
       "      <th>stp2_Urea</th>\n",
       "      <th>stp2_YPD</th>\n",
       "      <th>stp2_YPDDiauxic</th>\n",
       "      <th>stp2_YPDRapa</th>\n",
       "      <th>stp2_YPEtOH</th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>ICR1</td>\n",
       "      <td>YFL021W</td>\n",
       "      <td>-0.004535</td>\n",
       "      <td>0.017106</td>\n",
       "      <td>0.006871</td>\n",
       "      <td>-0.007333</td>\n",
       "      <td>0.029206</td>\n",
       "      <td>0.004913</td>\n",
       "      <td>0.006736</td>\n",
       "      <td>0.058204</td>\n",
       "      <td>...</td>\n",
       "      <td>0.062187</td>\n",
       "      <td>0.034648</td>\n",
       "      <td>0.012105</td>\n",
       "      <td>-0.017845</td>\n",
       "      <td>0.000555</td>\n",
       "      <td>0.002437</td>\n",
       "      <td>0.089300</td>\n",
       "      <td>-0.115947</td>\n",
       "      <td>0.044546</td>\n",
       "      <td>0.023879</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>1</th>\n",
       "      <td>ICR1</td>\n",
       "      <td>YIR023W</td>\n",
       "      <td>-0.000279</td>\n",
       "      <td>0.021653</td>\n",
       "      <td>0.011747</td>\n",
       "      <td>-0.020099</td>\n",
       "      <td>0.015168</td>\n",
       "      <td>0.002988</td>\n",
       "      <td>-0.000313</td>\n",
       "      <td>0.016634</td>\n",
       "      <td>...</td>\n",
       "      <td>0.037486</td>\n",
       "      <td>0.030987</td>\n",
       "      <td>0.008626</td>\n",
       "      <td>-0.007262</td>\n",
       "      <td>-0.002331</td>\n",
       "      <td>0.019792</td>\n",
       "      <td>0.034431</td>\n",
       "      <td>0.025710</td>\n",
       "      <td>-0.008040</td>\n",
       "      <td>-0.046994</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>2</th>\n",
       "      <td>LSR1</td>\n",
       "      <td>YEL009C</td>\n",
       "      <td>-0.005559</td>\n",
       "      <td>0.022803</td>\n",
       "      <td>0.009922</td>\n",
       "      <td>0.016011</td>\n",
       "      <td>-0.004753</td>\n",
       "      <td>0.008697</td>\n",
       "      <td>0.035934</td>\n",
       "      <td>0.040455</td>\n",
       "      <td>...</td>\n",
       "      <td>0.006845</td>\n",
       "      <td>-0.007033</td>\n",
       "      <td>0.018157</td>\n",
       "      <td>0.010297</td>\n",
       "      <td>0.019962</td>\n",
       "      <td>0.004743</td>\n",
       "      <td>0.049638</td>\n",
       "      <td>-0.007474</td>\n",
       "      <td>0.002797</td>\n",
       "      <td>-0.014456</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>3</th>\n",
       "      <td>LSR1</td>\n",
       "      <td>YER040W</td>\n",
       "      <td>0.011201</td>\n",
       "      <td>0.014490</td>\n",
       "      <td>-0.005637</td>\n",
       "      <td>-0.010114</td>\n",
       "      <td>-0.001439</td>\n",
       "      <td>0.003891</td>\n",
       "      <td>-0.056057</td>\n",
       "      <td>0.040866</td>\n",
       "      <td>...</td>\n",
       "      <td>0.001978</td>\n",
       "      <td>-0.024889</td>\n",
       "      <td>0.040863</td>\n",
       "      <td>0.006790</td>\n",
       "      <td>0.007430</td>\n",
       "      <td>-0.003604</td>\n",
       "      <td>0.040787</td>\n",
       "      <td>-0.003961</td>\n",
       "      <td>-0.067772</td>\n",
       "      <td>-0.018329</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>4</th>\n",
       "      <td>LSR1</td>\n",
       "      <td>YFL021W</td>\n",
       "      <td>0.003170</td>\n",
       "      <td>0.014938</td>\n",
       "      <td>0.014940</td>\n",
       "      <td>0.018440</td>\n",
       "      <td>-0.017296</td>\n",
       "      <td>0.001976</td>\n",
       "      <td>-0.008810</td>\n",
       "      <td>0.086286</td>\n",
       "      <td>...</td>\n",
       "      <td>0.006286</td>\n",
       "      <td>-0.027705</td>\n",
       "      <td>0.028126</td>\n",
       "      <td>0.028424</td>\n",
       "      <td>0.006354</td>\n",
       "      <td>-0.000287</td>\n",
       "      <td>0.120196</td>\n",
       "      <td>0.018780</td>\n",
       "      <td>-0.040169</td>\n",
       "      <td>0.011004</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>...</th>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>63773</th>\n",
       "      <td>snR9</td>\n",
       "      <td>YHR006W</td>\n",
       "      <td>0.008485</td>\n",
       "      <td>0.028751</td>\n",
       "      <td>0.000931</td>\n",
       "      <td>-0.000061</td>\n",
       "      <td>-0.020034</td>\n",
       "      <td>0.001362</td>\n",
       "      <td>0.034121</td>\n",
       "      <td>0.001618</td>\n",
       "      <td>...</td>\n",
       "      <td>0.132726</td>\n",
       "      <td>-0.092140</td>\n",
       "      <td>-0.026245</td>\n",
       "      <td>-0.006289</td>\n",
       "      <td>0.025783</td>\n",
       "      <td>0.033560</td>\n",
       "      <td>0.064192</td>\n",
       "      <td>0.006946</td>\n",
       "      <td>-0.029495</td>\n",
       "      <td>0.012709</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>63774</th>\n",
       "      <td>snR9</td>\n",
       "      <td>YIR023W</td>\n",
       "      <td>0.000647</td>\n",
       "      <td>0.031450</td>\n",
       "      <td>0.001682</td>\n",
       "      <td>-0.000546</td>\n",
       "      <td>-0.026091</td>\n",
       "      <td>0.003425</td>\n",
       "      <td>-0.000449</td>\n",
       "      <td>0.000516</td>\n",
       "      <td>...</td>\n",
       "      <td>0.064204</td>\n",
       "      <td>0.105365</td>\n",
       "      <td>0.052305</td>\n",
       "      <td>0.004004</td>\n",
       "      <td>-0.019660</td>\n",
       "      <td>0.012570</td>\n",
       "      <td>0.019504</td>\n",
       "      <td>-0.001191</td>\n",
       "      <td>-0.003348</td>\n",
       "      <td>-0.014888</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>63775</th>\n",
       "      <td>snR9</td>\n",
       "      <td>YJL110C</td>\n",
       "      <td>-0.004567</td>\n",
       "      <td>0.026606</td>\n",
       "      <td>0.000885</td>\n",
       "      <td>0.000051</td>\n",
       "      <td>-0.023371</td>\n",
       "      <td>0.015628</td>\n",
       "      <td>0.033568</td>\n",
       "      <td>0.000902</td>\n",
       "      <td>...</td>\n",
       "      <td>0.082244</td>\n",
       "      <td>0.036674</td>\n",
       "      <td>0.132899</td>\n",
       "      <td>0.007498</td>\n",
       "      <td>0.027537</td>\n",
       "      <td>0.002490</td>\n",
       "      <td>0.018436</td>\n",
       "      <td>0.005148</td>\n",
       "      <td>0.033662</td>\n",
       "      <td>-0.007470</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>63776</th>\n",
       "      <td>snR9</td>\n",
       "      <td>YKR034W</td>\n",
       "      <td>-0.007082</td>\n",
       "      <td>0.017961</td>\n",
       "      <td>0.001106</td>\n",
       "      <td>-0.000223</td>\n",
       "      <td>-0.022927</td>\n",
       "      <td>-0.034606</td>\n",
       "      <td>-0.001499</td>\n",
       "      <td>0.001052</td>\n",
       "      <td>...</td>\n",
       "      <td>0.065433</td>\n",
       "      <td>0.133014</td>\n",
       "      <td>-0.007290</td>\n",
       "      <td>0.007426</td>\n",
       "      <td>-0.014162</td>\n",
       "      <td>-0.001393</td>\n",
       "      <td>0.030459</td>\n",
       "      <td>0.004676</td>\n",
       "      <td>0.028388</td>\n",
       "      <td>0.008519</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>63777</th>\n",
       "      <td>snR9</td>\n",
       "      <td>YNL314W</td>\n",
       "      <td>0.011093</td>\n",
       "      <td>0.026065</td>\n",
       "      <td>-0.000705</td>\n",
       "      <td>0.000266</td>\n",
       "      <td>-0.004522</td>\n",
       "      <td>0.001962</td>\n",
       "      <td>0.056749</td>\n",
       "      <td>0.000938</td>\n",
       "      <td>...</td>\n",
       "      <td>0.074860</td>\n",
       "      <td>-0.048514</td>\n",
       "      <td>0.005687</td>\n",
       "      <td>0.006617</td>\n",
       "      <td>-0.000686</td>\n",
       "      <td>0.013286</td>\n",
       "      <td>0.036375</td>\n",
       "      <td>-0.006732</td>\n",
       "      <td>0.027321</td>\n",
       "      <td>-0.011401</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "<p>63778 rows × 134 columns</p>\n",
       "</div>"
      ],
      "text/plain": [
       "      gene1    gene2  WT(ho)_AmmoniumSulfate  WT(ho)_CStarve  \\\n",
       "0      ICR1  YFL021W               -0.004535        0.017106   \n",
       "1      ICR1  YIR023W               -0.000279        0.021653   \n",
       "2      LSR1  YEL009C               -0.005559        0.022803   \n",
       "3      LSR1  YER040W                0.011201        0.014490   \n",
       "4      LSR1  YFL021W                0.003170        0.014938   \n",
       "...     ...      ...                     ...             ...   \n",
       "63773  snR9  YHR006W                0.008485        0.028751   \n",
       "63774  snR9  YIR023W                0.000647        0.031450   \n",
       "63775  snR9  YJL110C               -0.004567        0.026606   \n",
       "63776  snR9  YKR034W               -0.007082        0.017961   \n",
       "63777  snR9  YNL314W                0.011093        0.026065   \n",
       "\n",
       "       WT(ho)_Glutamine  WT(ho)_MinimalEtOH  WT(ho)_MinimalGlucose  \\\n",
       "0              0.006871           -0.007333               0.029206   \n",
       "1              0.011747           -0.020099               0.015168   \n",
       "2              0.009922            0.016011              -0.004753   \n",
       "3             -0.005637           -0.010114              -0.001439   \n",
       "4              0.014940            0.018440              -0.017296   \n",
       "...                 ...                 ...                    ...   \n",
       "63773          0.000931           -0.000061              -0.020034   \n",
       "63774          0.001682           -0.000546              -0.026091   \n",
       "63775          0.000885            0.000051              -0.023371   \n",
       "63776          0.001106           -0.000223              -0.022927   \n",
       "63777         -0.000705            0.000266              -0.004522   \n",
       "\n",
       "       WT(ho)_Proline  WT(ho)_Urea  WT(ho)_YPD  ...  stp2_CStarve  \\\n",
       "0            0.004913     0.006736    0.058204  ...      0.062187   \n",
       "1            0.002988    -0.000313    0.016634  ...      0.037486   \n",
       "2            0.008697     0.035934    0.040455  ...      0.006845   \n",
       "3            0.003891    -0.056057    0.040866  ...      0.001978   \n",
       "4            0.001976    -0.008810    0.086286  ...      0.006286   \n",
       "...               ...          ...         ...  ...           ...   \n",
       "63773        0.001362     0.034121    0.001618  ...      0.132726   \n",
       "63774        0.003425    -0.000449    0.000516  ...      0.064204   \n",
       "63775        0.015628     0.033568    0.000902  ...      0.082244   \n",
       "63776       -0.034606    -0.001499    0.001052  ...      0.065433   \n",
       "63777        0.001962     0.056749    0.000938  ...      0.074860   \n",
       "\n",
       "       stp2_Glutamine  stp2_MinimalEtOH  stp2_MinimalGlucose  stp2_Proline  \\\n",
       "0            0.034648          0.012105            -0.017845      0.000555   \n",
       "1            0.030987          0.008626            -0.007262     -0.002331   \n",
       "2           -0.007033          0.018157             0.010297      0.019962   \n",
       "3           -0.024889          0.040863             0.006790      0.007430   \n",
       "4           -0.027705          0.028126             0.028424      0.006354   \n",
       "...               ...               ...                  ...           ...   \n",
       "63773       -0.092140         -0.026245            -0.006289      0.025783   \n",
       "63774        0.105365          0.052305             0.004004     -0.019660   \n",
       "63775        0.036674          0.132899             0.007498      0.027537   \n",
       "63776        0.133014         -0.007290             0.007426     -0.014162   \n",
       "63777       -0.048514          0.005687             0.006617     -0.000686   \n",
       "\n",
       "       stp2_Urea  stp2_YPD  stp2_YPDDiauxic  stp2_YPDRapa  stp2_YPEtOH  \n",
       "0       0.002437  0.089300        -0.115947      0.044546     0.023879  \n",
       "1       0.019792  0.034431         0.025710     -0.008040    -0.046994  \n",
       "2       0.004743  0.049638        -0.007474      0.002797    -0.014456  \n",
       "3      -0.003604  0.040787        -0.003961     -0.067772    -0.018329  \n",
       "4      -0.000287  0.120196         0.018780     -0.040169     0.011004  \n",
       "...          ...       ...              ...           ...          ...  \n",
       "63773   0.033560  0.064192         0.006946     -0.029495     0.012709  \n",
       "63774   0.012570  0.019504        -0.001191     -0.003348    -0.014888  \n",
       "63775   0.002490  0.018436         0.005148      0.033662    -0.007470  \n",
       "63776  -0.001393  0.030459         0.004676      0.028388     0.008519  \n",
       "63777   0.013286  0.036375        -0.006732      0.027321    -0.011401  \n",
       "\n",
       "[63778 rows x 134 columns]"
      ]
     },
     "execution_count": 154,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "ddd"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 155,
   "metadata": {},
   "outputs": [],
   "source": [
    "ddd['edge'] = ddd['gene1'] + '_' + ddd['gene2']\n",
    "ddd['edge_reversed'] = ddd['gene2'] + '_' + ddd['gene1']\n",
    "ddd.set_index('edge', inplace = True)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 156,
   "metadata": {},
   "outputs": [],
   "source": [
    "sort_columns_by_genotype = sorted(ddd.columns[2:-1])\n",
    "col_genotype = [i.split('_')[0] for i in sort_columns_by_genotype]\n",
    "variances_df = pd.DataFrame()\n",
    "\n",
    "\n",
    "\n",
    "# df_all_tests = pd.DataFrame()\n",
    "# for deletion_oi in deletion_genes:\n",
    "#     k_edges = 'all'\n",
    "#     geneoi = gene_maps[deletion_oi]\n",
    "#     print(geneoi, deletion_oi)\n",
    "#     ddd['perturbed'] = (ddd['gene2']==geneoi) | (ddd['gene1']==geneoi)\n",
    "#     # We need to remove duplicated from/to edges of perturbation nodes\n",
    "#     genes = ddd[ddd['perturbed']].iloc[:,:2]\n",
    "#     temp = (ddd[ddd['perturbed']]).iloc[:,2:-2]\n",
    "    \n",
    "#     # Check variences \n",
    "#     temp2 =temp.loc[:,sort_columns_by_genotype].copy().T\n",
    "#     temp2['genotype'] = col_genotype\n",
    "#     ttt = temp2.groupby('genotype').var().mean(axis = 1).to_frame().sort_values(0, ascending = False).rename(columns = {0:deletion_oi})\n",
    "#     variances_df = variances_df.merge(ttt, how = 'outer', left_index = True, right_index = True)\n",
    "\n",
    "#     # We do the same but for the top edges in wild time\n",
    "#     iloc_pert = [i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "#     iloc_wt = [i.startswith('WT') for i in temp.columns.tolist()]\n",
    "#     iloc_other = [not i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "#     print(temp.columns[iloc_pert]), print(temp.columns[iloc_wt]) \n",
    "    \n",
    "#     temp_top = temp\n",
    "    \n",
    "#     df_tests = pd.DataFrame(columns = ['gene1','gene2','perturbation','k_edges','stat_wilk', 'pval_wilk','stat_ks', 'pval_ks','stat_ks_other', 'pval_ks_other'])\n",
    "#     # Test with wilkoxon signed rank\n",
    "#     for j in range(len(temp_top)):\n",
    "#         x = temp_top.iloc[j,iloc_pert]\n",
    "#         y = temp_top.iloc[j,iloc_wt]\n",
    "#         y2 = temp_top.iloc[j,iloc_other]\n",
    "#         # Wilcoxon signed rank test\n",
    "#         wilk = stats.wilcoxon(x, y )\n",
    "#         # Kolmogorov smirnov\n",
    "#         ks = stats.kstest(x, y)\n",
    "#         ks_other = stats.kstest(x, y2)\n",
    "#         # create one row dataframe with same columns of df_tests\n",
    "        \n",
    "#         aaa = pd.DataFrame(data =[ [genes.iloc[j,:]['gene1'], genes.iloc[j,:]['gene2'] , deletion_oi, k_edges, wilk.statistic, wilk.pvalue, ks.statistic, ks.pvalue, ks_other.statistic, ks_other.pvalue] ], columns = df_tests.columns)\n",
    "\n",
    "#         df_tests = pd.concat([df_tests,aaa] , \n",
    "#                              axis = 0)\n",
    "    \n",
    "#     x = temp_top.iloc[j,iloc_pert].values.flatten()\n",
    "#     y = temp_top.iloc[j,iloc_wt].values.flatten()\n",
    "#     y2 = temp_top.iloc[j,iloc_other].values.flatten()\n",
    "#     # Wilcoxon signed rank test\n",
    "#     wilk = stats.wilcoxon(x, y )\n",
    "#     # Kolmogorov smirnov\n",
    "#     ks = stats.kstest(x, y)\n",
    "#     ks_other = stats.kstest(x, y2)\n",
    "#     aaa = pd.DataFrame(data =[ ['all_edges', 'all_edges' , deletion_oi, k_edges, wilk.statistic, wilk.pvalue, ks.statistic, ks.pvalue, ks_other.statistic, ks_other.pvalue] ], columns = df_tests.columns)\n",
    "\n",
    "#     df_tests = pd.concat([df_tests,aaa] , \n",
    "#                              axis = 0)\n",
    "        \n",
    "#     df_all_tests = pd.concat([df_all_tests, df_tests], axis = 0)\n",
    "#     # Calculate the row-wise variance\n",
    "#     row_variances = temp.mean(axis=1) #,mean\n",
    "\n",
    "#     # Add the row_variances as a new column to the DataFrame\n",
    "#     temp['row_variance'] = row_variances\n",
    "\n",
    "#     # Sort the DataFrame based on the Row_Variance column\n",
    "#     sorted_temp = temp.sort_values(by='row_variance', ascending=False)\n",
    "\n",
    "    \n",
    "\n",
    "#     g1 = sns.clustermap(pd.concat([sorted_temp.iloc[:50,:-1].loc[:,sort_columns_by_genotype],sorted_temp.iloc[-50:,:-1].loc[:,sort_columns_by_genotype]], axis =0) ,\n",
    "#                             col_cluster=False,row_cluster = False, cmap = 'jet',\n",
    "#                             xticklabels = 1,yticklabels =False, figsize = (20,10), method = 'complete', metric = 'sqeuclidean')\n",
    "#     g1.ax_heatmap.set_ylabel(deletion_oi + \"target edges\")\n",
    "#     g1.ax_heatmap.set_title('Top and bottom 50 %s edges, sorted by average edge values ' %deletion_oi)\n",
    "#     plt.tight_layout()\n",
    "#     g1.fig.savefig(results_folder + method+'_' +deletion_oi+'_heatmap_perturbation.pdf')\n",
    "    \n",
    "# df_all_tests.to_csv(results_folder + method+'_all_tests.tsv', sep = '\\t', index = False)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 157,
   "metadata": {},
   "outputs": [],
   "source": [
    "# #sort_columns_by_genotype = sorted(ddd.columns[2:-2])\n",
    "# #col_genotype = [i.split('_')[0] for i in sort_columns_by_genotype]\n",
    "\n",
    "\n",
    "\n",
    "# df_all_tests = pd.DataFrame()\n",
    "# for deletion_oi in deletion_genes:\n",
    "#     for k_edges in [25,50, 100, 500]:\n",
    "#         geneoi = gene_maps[deletion_oi]\n",
    "#         print(geneoi, deletion_oi, k_edges)\n",
    "#         ddd['perturbed'] = (ddd['gene2']==geneoi) | (ddd['gene1']==geneoi)\n",
    "#         # We need to remove duplicated from/to edges of perturbation nodes\n",
    "#         a = (set(ddd[ddd['perturbed']].index.tolist()).intersection(set(ddd[ddd['perturbed']]['edge_reversed'].tolist())))\n",
    "#         a = [i for i in list(a) if i.startswith(geneoi)]\n",
    "#         ddd = ddd.loc[~ddd.index.isin(a),:]\n",
    "#         genes = ddd[ddd['perturbed']].iloc[:,:2]\n",
    "#         temp = (ddd[ddd['perturbed']]).iloc[:,2:-2]\n",
    "\n",
    "#         # We do the same but for the top edges in wild time\n",
    "#         iloc_pert = [i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "#         iloc_wt = [i.startswith('WT') for i in temp.columns.tolist()]\n",
    "#         iloc_other = [not i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "        \n",
    "#         #mwt = temp.iloc[:,iloc_wt].mean(axis = 1).sort_values( ascending = False)\n",
    "#         mwt = temp.iloc[:,iloc_wt].mean(axis = 1).abs().sort_values( ascending = False)\n",
    "#         edgestop = mwt.iloc[:k_edges].index.tolist()\n",
    "#         #edgesbottom = mwt.iloc[-k_edges:].index.tolist()\n",
    "#         #temp_top = temp.loc[edgestop+edgesbottom,:].copy()\n",
    "#         temp_top = temp.loc[edgestop,:].copy()\n",
    "        \n",
    "        \n",
    "        \n",
    "#         df_tests_columns = ['gene1','gene2','perturbation','k_edges','stat_wilk', 'pval_wilk','stat_ks', 'pval_ks','stat_ks_other', 'pval_ks_other']\n",
    "        \n",
    "#         x = temp_top.iloc[:,iloc_pert].values.flatten()\n",
    "#         y = temp_top.iloc[:,iloc_wt].values.flatten()\n",
    "#         y2 = temp_top.iloc[:,iloc_other].values.flatten()\n",
    "#         # Wilcoxon signed rank test\n",
    "#         wilk = stats.wilcoxon(x, y )\n",
    "#         # Kolmogorov smirnov\n",
    "#         ks = stats.kstest(x, y)\n",
    "#         ks_other = stats.kstest(x, y2)\n",
    "#         df_tests = pd.DataFrame(data =[ ['all_edges', 'all_edges' , deletion_oi, k_edges, wilk.statistic, wilk.pvalue, ks.statistic, ks.pvalue, ks_other.statistic, ks_other.pvalue] ], columns = df_tests_columns)\n",
    "        \n",
    "        \n",
    "#         # Test with wilkoxon signed rank\n",
    "#         for j in range(len(temp_top)):\n",
    "#             x = temp_top.iloc[j,iloc_pert]\n",
    "#             y = temp_top.iloc[j,iloc_wt]\n",
    "#             y2 = temp_top.iloc[j,iloc_other]\n",
    "#             # Wilcoxon signed rank test\n",
    "#             wilk = stats.wilcoxon(x, y )\n",
    "#             # Kolmogorov smirnov\n",
    "#             ks = stats.kstest(x, y)\n",
    "#             ks_other = stats.kstest(x, y2)\n",
    "#             # create one row dataframe with same columns of df_tests\n",
    "            \n",
    "#             aaa = pd.DataFrame(data =[ [genes.iloc[j,:]['gene1'], genes.iloc[j,:]['gene2'] , deletion_oi, k_edges, wilk.statistic, wilk.pvalue, ks.statistic, ks.pvalue, ks_other.statistic, ks_other.pvalue] ], columns = df_tests.columns)\n",
    "\n",
    "#             df_tests = pd.concat([df_tests,aaa] , \n",
    "#                                 axis = 0)\n",
    "                    \n",
    "#         df_all_tests = pd.concat([df_all_tests, df_tests], axis = 0)\n",
    "    \n",
    "# df_all_tests.to_csv(results_folder + method+'_all_tests_toponly.tsv', sep = '\\t', index = False)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 158,
   "metadata": {},
   "outputs": [],
   "source": [
    "#sns.histplot(df_all_tests['pval_wilk'], bins = 20)\n",
    "#sns.histplot(df_all_tests['pval_ks'], bins = 20)\n",
    "#sns.histplot(df_all_tests['pval_ks_other'], bins = 20)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 159,
   "metadata": {},
   "outputs": [],
   "source": [
    "#'WT(ho)',\n",
    "genotype = [\n",
    " 'dal80',\n",
    " 'dal81',\n",
    " 'dal82',\n",
    " 'gat1',\n",
    " 'gcn4',\n",
    " 'gln3',\n",
    " 'gzf3',\n",
    " 'rtg1',\n",
    " 'rtg3',\n",
    " 'stp1',\n",
    " 'stp2']"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 160,
   "metadata": {},
   "outputs": [],
   "source": [
    "media = ['AmmoniumSulfate',\n",
    " 'CStarve',\n",
    " 'Glutamine',\n",
    " 'MinimalEtOH',\n",
    " 'MinimalGlucose',\n",
    " 'Proline',\n",
    " 'Urea',\n",
    " 'YPD',\n",
    " 'YPDDiauxic',\n",
    " 'YPDRapa',\n",
    " 'YPEtOH'\n",
    "]"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": []
  },
  {
   "cell_type": "code",
   "execution_count": 161,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "290\n",
      "YKR034W dal80 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n"
     ]
    },
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "/tmp/ipykernel_80379/2625803752.py:74: FutureWarning: The behavior of DataFrame concatenation with empty or all-NA entries is deprecated. In a future version, this will no longer exclude empty or all-NA columns when determining the result dtypes. To retain the old behavior, exclude the relevant entries before the concat operation.\n",
      "  df_all_tests = pd.concat([df_all_tests,aaa] ,\n"
     ]
    },
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YKR034W dal80 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YKR034W dal80 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YIR023W dal81 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YIR023W dal81 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YIR023W dal81 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YNL314W dal82 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YNL314W dal82 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YNL314W dal82 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YFL021W gat1 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YFL021W gat1 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YFL021W gat1 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YER040W gln3 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YER040W gln3 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YER040W gln3 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YJL110C gzf3 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YJL110C gzf3 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YJL110C gzf3 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YEL009C gcn4 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YEL009C gcn4 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YEL009C gcn4 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YDR463W stp1 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YDR463W stp1 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YDR463W stp1 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YHR006W stp2 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YHR006W stp2 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YHR006W stp2 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YOL067C rtg1 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YOL067C rtg1 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YOL067C rtg1 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "290\n",
      "YBL103C rtg3 290\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(290,) (290,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(290,) (290,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(290,) (290,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(290,) (290,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(290,) (290,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(290,) (290,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(290,) (290,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(290,) (290,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(290,) (290,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(290,) (290,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(290,) (290,)\n",
      "580\n",
      "YBL103C rtg3 580\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(580,) (580,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(580,) (580,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(580,) (580,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(580,) (580,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(580,) (580,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(580,) (580,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(580,) (580,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(580,) (580,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(580,) (580,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(580,) (580,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(580,) (580,)\n",
      "1160\n",
      "YBL103C rtg3 1160\n",
      "dal80 AmmoniumSulfate\n",
      "['dal80_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal80 CStarve\n",
      "['dal80_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal80 Glutamine\n",
      "['dal80_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalEtOH\n",
      "['dal80_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal80 MinimalGlucose\n",
      "['dal80_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal80 Proline\n",
      "['dal80_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal80 Urea\n",
      "['dal80_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal80 YPD\n",
      "['dal80_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDDiauxic\n",
      "['dal80_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal80 YPDRapa\n",
      "['dal80_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal80 YPEtOH\n",
      "['dal80_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 AmmoniumSulfate\n",
      "['dal81_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal81 CStarve\n",
      "['dal81_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal81 Glutamine\n",
      "['dal81_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalEtOH\n",
      "['dal81_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal81 MinimalGlucose\n",
      "['dal81_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal81 Proline\n",
      "['dal81_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal81 Urea\n",
      "['dal81_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal81 YPD\n",
      "['dal81_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDDiauxic\n",
      "['dal81_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal81 YPDRapa\n",
      "['dal81_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal81 YPEtOH\n",
      "['dal81_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 AmmoniumSulfate\n",
      "['dal82_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "dal82 CStarve\n",
      "['dal82_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "dal82 Glutamine\n",
      "['dal82_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalEtOH\n",
      "['dal82_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "dal82 MinimalGlucose\n",
      "['dal82_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "dal82 Proline\n",
      "['dal82_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "dal82 Urea\n",
      "['dal82_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "dal82 YPD\n",
      "['dal82_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDDiauxic\n",
      "['dal82_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "dal82 YPDRapa\n",
      "['dal82_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "dal82 YPEtOH\n",
      "['dal82_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 AmmoniumSulfate\n",
      "['gat1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gat1 CStarve\n",
      "['gat1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gat1 Glutamine\n",
      "['gat1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalEtOH\n",
      "['gat1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gat1 MinimalGlucose\n",
      "['gat1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gat1 Proline\n",
      "['gat1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gat1 Urea\n",
      "['gat1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gat1 YPD\n",
      "['gat1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDDiauxic\n",
      "['gat1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gat1 YPDRapa\n",
      "['gat1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gat1 YPEtOH\n",
      "['gat1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 AmmoniumSulfate\n",
      "['gcn4_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gcn4 CStarve\n",
      "['gcn4_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gcn4 Glutamine\n",
      "['gcn4_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalEtOH\n",
      "['gcn4_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gcn4 MinimalGlucose\n",
      "['gcn4_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gcn4 Proline\n",
      "['gcn4_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gcn4 Urea\n",
      "['gcn4_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPD\n",
      "['gcn4_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDDiauxic\n",
      "['gcn4_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPDRapa\n",
      "['gcn4_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gcn4 YPEtOH\n",
      "['gcn4_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 AmmoniumSulfate\n",
      "['gln3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gln3 CStarve\n",
      "['gln3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gln3 Glutamine\n",
      "['gln3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalEtOH\n",
      "['gln3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gln3 MinimalGlucose\n",
      "['gln3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gln3 Proline\n",
      "['gln3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gln3 Urea\n",
      "['gln3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gln3 YPD\n",
      "['gln3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDDiauxic\n",
      "['gln3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gln3 YPDRapa\n",
      "['gln3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gln3 YPEtOH\n",
      "['gln3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 AmmoniumSulfate\n",
      "['gzf3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "gzf3 CStarve\n",
      "['gzf3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "gzf3 Glutamine\n",
      "['gzf3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalEtOH\n",
      "['gzf3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "gzf3 MinimalGlucose\n",
      "['gzf3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "gzf3 Proline\n",
      "['gzf3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "gzf3 Urea\n",
      "['gzf3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPD\n",
      "['gzf3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDDiauxic\n",
      "['gzf3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPDRapa\n",
      "['gzf3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "gzf3 YPEtOH\n",
      "['gzf3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 AmmoniumSulfate\n",
      "['rtg1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg1 CStarve\n",
      "['rtg1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg1 Glutamine\n",
      "['rtg1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalEtOH\n",
      "['rtg1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg1 MinimalGlucose\n",
      "['rtg1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg1 Proline\n",
      "['rtg1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg1 Urea\n",
      "['rtg1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPD\n",
      "['rtg1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDDiauxic\n",
      "['rtg1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPDRapa\n",
      "['rtg1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg1 YPEtOH\n",
      "['rtg1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 AmmoniumSulfate\n",
      "['rtg3_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "rtg3 CStarve\n",
      "['rtg3_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "rtg3 Glutamine\n",
      "['rtg3_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalEtOH\n",
      "['rtg3_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "rtg3 MinimalGlucose\n",
      "['rtg3_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "rtg3 Proline\n",
      "['rtg3_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "rtg3 Urea\n",
      "['rtg3_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPD\n",
      "['rtg3_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDDiauxic\n",
      "['rtg3_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPDRapa\n",
      "['rtg3_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "rtg3 YPEtOH\n",
      "['rtg3_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 AmmoniumSulfate\n",
      "['stp1_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp1 CStarve\n",
      "['stp1_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp1 Glutamine\n",
      "['stp1_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalEtOH\n",
      "['stp1_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp1 MinimalGlucose\n",
      "['stp1_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp1 Proline\n",
      "['stp1_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp1 Urea\n",
      "['stp1_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp1 YPD\n",
      "['stp1_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDDiauxic\n",
      "['stp1_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp1 YPDRapa\n",
      "['stp1_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp1 YPEtOH\n",
      "['stp1_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 AmmoniumSulfate\n",
      "['stp2_AmmoniumSulfate'] ['WT(ho)_AmmoniumSulfate']\n",
      "(1160,) (1160,)\n",
      "stp2 CStarve\n",
      "['stp2_CStarve'] ['WT(ho)_CStarve']\n",
      "(1160,) (1160,)\n",
      "stp2 Glutamine\n",
      "['stp2_Glutamine'] ['WT(ho)_Glutamine']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalEtOH\n",
      "['stp2_MinimalEtOH'] ['WT(ho)_MinimalEtOH']\n",
      "(1160,) (1160,)\n",
      "stp2 MinimalGlucose\n",
      "['stp2_MinimalGlucose'] ['WT(ho)_MinimalGlucose']\n",
      "(1160,) (1160,)\n",
      "stp2 Proline\n",
      "['stp2_Proline'] ['WT(ho)_Proline']\n",
      "(1160,) (1160,)\n",
      "stp2 Urea\n",
      "['stp2_Urea'] ['WT(ho)_Urea']\n",
      "(1160,) (1160,)\n",
      "stp2 YPD\n",
      "['stp2_YPD'] ['WT(ho)_YPD']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDDiauxic\n",
      "['stp2_YPDDiauxic'] ['WT(ho)_YPDDiauxic']\n",
      "(1160,) (1160,)\n",
      "stp2 YPDRapa\n",
      "['stp2_YPDRapa'] ['WT(ho)_YPDRapa']\n",
      "(1160,) (1160,)\n",
      "stp2 YPEtOH\n",
      "['stp2_YPEtOH'] ['WT(ho)_YPEtOH']\n",
      "(1160,) (1160,)\n"
     ]
    }
   ],
   "source": [
    "#sort_columns_by_genotype = sorted(ddd.columns[2:-2])\n",
    "#col_genotype = [i.split('_')[0] for i in sort_columns_by_genotype]\n",
    "\n",
    "\n",
    "edge_th = np.array([0.05, 0.1,0.2])*5803\n",
    "edge_th = [int(i) for i in edge_th]\n",
    "\n",
    "df_all_tests = pd.DataFrame(columns = ['gene1','gene2','perturbation','k_edges','stat_wilk', 'pval_wilk','stat_ks', 'pval_ks','stat_ks_other', 'pval_ks_other']\n",
    "        )\n",
    "for deletion_oi in deletion_genes:\n",
    "    for k_edges in edge_th:\n",
    "        print(k_edges)\n",
    "        geneoi = gene_maps[deletion_oi]\n",
    "        print(geneoi, deletion_oi, k_edges)\n",
    "        ddd['perturbed'] = (ddd['gene2']==geneoi) | (ddd['gene1']==geneoi)\n",
    "        # We need to remove duplicated from/to edges of perturbation nodes\n",
    "        a = (set(ddd[ddd['perturbed']].index.tolist()).intersection(set(ddd[ddd['perturbed']]['edge_reversed'].tolist())))\n",
    "        a = [i for i in list(a) if i.startswith(geneoi)]\n",
    "        ddd = ddd.loc[~ddd.index.isin(a),:]\n",
    "        genes = ddd[ddd['perturbed']].iloc[:,:2]\n",
    "        temp = (ddd[ddd['perturbed']]).iloc[:,2:-2]\n",
    "\n",
    "        # We do the same but for the top edges in wild time\n",
    "        #iloc_pert = [i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "        iloc_wt = [i.startswith('WT') for i in temp.columns.tolist()]\n",
    "        #iloc_other = [not i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "        \n",
    "        #mwt = temp.iloc[:,iloc_wt].mean(axis = 1).sort_values( ascending = False)\n",
    "        mwt = temp.iloc[:,iloc_wt].mean(axis = 1).abs().sort_values( ascending = False)\n",
    "        edgestop = mwt.iloc[:k_edges].index.tolist()\n",
    "        #edgesbottom = mwt.iloc[-k_edges:].index.tolist()\n",
    "        temp_top = temp#.loc[edgestop+edgesbottom,:].copy()\n",
    "        temp_top = temp#.loc[edgestop,:].copy()\n",
    "        \n",
    "        \n",
    "        #x = temp_top.iloc[:,iloc_pert].values.flatten()\n",
    "        #y = temp_top.iloc[:,iloc_wt].values.flatten()\n",
    "        #y2 = temp_top.iloc[:,iloc_other].values.flatten()\n",
    "        # Wilcoxon signed rank test\n",
    "        #wilk = stats.wilcoxon(x, y )\n",
    "        # Kolmogorov smirnov\n",
    "        #ks = stats.kstest(x, y)\n",
    "        #ks_other = stats.kstest(x, y2)\n",
    "        #df_tests = pd.DataFrame(data =[ ['all_edges', 'all_edges' , deletion_oi, k_edges, wilk.statistic, wilk.pvalue, ks.statistic, ks.pvalue, ks_other.statistic, ks_other.pvalue] ], columns = df_tests_columns)\n",
    "        \n",
    "        # Test with wilkoxon signed rank\n",
    "        for g in genotype:\n",
    "            mygenocols = [i for i in temp_top.columns.tolist() if i.startswith(g)]\n",
    "            mywtcols = [i for i in temp_top.columns.tolist() if i.startswith('WT')]\n",
    "            mygenotop = temp.loc[:,mygenocols]\n",
    "            mywttop = temp.loc[:,mywtcols]\n",
    "            for m in media:\n",
    "                print(g,m)\n",
    "                mygenomedia = [i  for i in mygenotop.columns.tolist() if i.endswith(m)]\n",
    "                mywtmedia = [i for i in mywttop.columns.tolist() if i.endswith(m)]\n",
    "                print(mygenomedia, mywtmedia)\n",
    "                # @TODO unomment two lines\n",
    "                #mwt = mywttop.loc[:,mywtmedia].abs().sort_values(by =mywtmedia,  ascending = False)\n",
    "                #edgestop = mwt.iloc[:k_edges].index.tolist()\n",
    "                #edgesbottom = mwt.iloc[-k_edges:].index.tolist()\n",
    "                #temp_top = temp.loc[edgestop+edgesbottom,:].copy()\n",
    "                \n",
    "                x = mygenotop.loc[edgestop,mygenomedia].values.flatten()\n",
    "                y = mywttop.loc[edgestop,mywtmedia].values.flatten()\n",
    "                print(x.shape, y.shape)\n",
    "                # Wilcoxon signed rank test\n",
    "                wilk = stats.wilcoxon(x, y )\n",
    "                # Kolmogorov smirnov\n",
    "                ks = stats.kstest(x, y)\n",
    "                # create one row dataframe with same columns of df_tests\n",
    "                \n",
    "                aaa = pd.DataFrame(data =[ [g, m , deletion_oi, k_edges, wilk.statistic, wilk.pvalue, ks.statistic, ks.pvalue, 0, 1] ], columns = df_all_tests.columns)\n",
    "\n",
    "                df_all_tests = pd.concat([df_all_tests,aaa] , \n",
    "                                    axis = 0)\n",
    "                    \n",
    "        #df_all_tests = pd.concat([df_all_tests, df_tests], axis = 0)\n",
    "    \n",
    "df_all_tests.to_csv(results_folder + method+'_genomedia_topwt_tests_toponly.tsv', sep = '\\t', index = False)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 162,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>gene1</th>\n",
       "      <th>gene2</th>\n",
       "      <th>perturbation</th>\n",
       "      <th>k_edges</th>\n",
       "      <th>stat_wilk</th>\n",
       "      <th>pval_wilk</th>\n",
       "      <th>stat_ks</th>\n",
       "      <th>pval_ks</th>\n",
       "      <th>stat_ks_other</th>\n",
       "      <th>pval_ks_other</th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>dal80</td>\n",
       "      <td>AmmoniumSulfate</td>\n",
       "      <td>dal80</td>\n",
       "      <td>290</td>\n",
       "      <td>20353.0</td>\n",
       "      <td>6.024511e-01</td>\n",
       "      <td>0.303448</td>\n",
       "      <td>3.466913e-12</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>dal80</td>\n",
       "      <td>CStarve</td>\n",
       "      <td>dal80</td>\n",
       "      <td>290</td>\n",
       "      <td>1859.0</td>\n",
       "      <td>2.691183e-41</td>\n",
       "      <td>0.386207</td>\n",
       "      <td>1.130489e-19</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>dal80</td>\n",
       "      <td>Glutamine</td>\n",
       "      <td>dal80</td>\n",
       "      <td>290</td>\n",
       "      <td>2780.0</td>\n",
       "      <td>1.341319e-37</td>\n",
       "      <td>0.662069</td>\n",
       "      <td>1.770547e-60</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>dal80</td>\n",
       "      <td>MinimalEtOH</td>\n",
       "      <td>dal80</td>\n",
       "      <td>290</td>\n",
       "      <td>13563.0</td>\n",
       "      <td>1.353823e-07</td>\n",
       "      <td>0.200000</td>\n",
       "      <td>1.729551e-05</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>dal80</td>\n",
       "      <td>MinimalGlucose</td>\n",
       "      <td>dal80</td>\n",
       "      <td>290</td>\n",
       "      <td>3181.0</td>\n",
       "      <td>4.802046e-36</td>\n",
       "      <td>0.620690</td>\n",
       "      <td>1.439383e-52</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>...</th>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>stp2</td>\n",
       "      <td>Urea</td>\n",
       "      <td>rtg3</td>\n",
       "      <td>1160</td>\n",
       "      <td>62222.0</td>\n",
       "      <td>8.352411e-128</td>\n",
       "      <td>0.750862</td>\n",
       "      <td>7.332922e-320</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>stp2</td>\n",
       "      <td>YPD</td>\n",
       "      <td>rtg3</td>\n",
       "      <td>1160</td>\n",
       "      <td>259752.0</td>\n",
       "      <td>1.566375e-11</td>\n",
       "      <td>0.039655</td>\n",
       "      <td>3.214634e-01</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>stp2</td>\n",
       "      <td>YPDDiauxic</td>\n",
       "      <td>rtg3</td>\n",
       "      <td>1160</td>\n",
       "      <td>172682.0</td>\n",
       "      <td>7.864962e-47</td>\n",
       "      <td>0.346552</td>\n",
       "      <td>3.567084e-62</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>stp2</td>\n",
       "      <td>YPDRapa</td>\n",
       "      <td>rtg3</td>\n",
       "      <td>1160</td>\n",
       "      <td>225533.0</td>\n",
       "      <td>2.035181e-22</td>\n",
       "      <td>0.230172</td>\n",
       "      <td>2.410013e-27</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>0</th>\n",
       "      <td>stp2</td>\n",
       "      <td>YPEtOH</td>\n",
       "      <td>rtg3</td>\n",
       "      <td>1160</td>\n",
       "      <td>185360.0</td>\n",
       "      <td>3.941803e-40</td>\n",
       "      <td>0.262069</td>\n",
       "      <td>2.038600e-35</td>\n",
       "      <td>0</td>\n",
       "      <td>1</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "<p>3993 rows × 10 columns</p>\n",
       "</div>"
      ],
      "text/plain": [
       "    gene1            gene2 perturbation k_edges  stat_wilk      pval_wilk  \\\n",
       "0   dal80  AmmoniumSulfate        dal80     290    20353.0   6.024511e-01   \n",
       "0   dal80          CStarve        dal80     290     1859.0   2.691183e-41   \n",
       "0   dal80        Glutamine        dal80     290     2780.0   1.341319e-37   \n",
       "0   dal80      MinimalEtOH        dal80     290    13563.0   1.353823e-07   \n",
       "0   dal80   MinimalGlucose        dal80     290     3181.0   4.802046e-36   \n",
       "..    ...              ...          ...     ...        ...            ...   \n",
       "0    stp2             Urea         rtg3    1160    62222.0  8.352411e-128   \n",
       "0    stp2              YPD         rtg3    1160   259752.0   1.566375e-11   \n",
       "0    stp2       YPDDiauxic         rtg3    1160   172682.0   7.864962e-47   \n",
       "0    stp2          YPDRapa         rtg3    1160   225533.0   2.035181e-22   \n",
       "0    stp2           YPEtOH         rtg3    1160   185360.0   3.941803e-40   \n",
       "\n",
       "     stat_ks        pval_ks stat_ks_other pval_ks_other  \n",
       "0   0.303448   3.466913e-12             0             1  \n",
       "0   0.386207   1.130489e-19             0             1  \n",
       "0   0.662069   1.770547e-60             0             1  \n",
       "0   0.200000   1.729551e-05             0             1  \n",
       "0   0.620690   1.439383e-52             0             1  \n",
       "..       ...            ...           ...           ...  \n",
       "0   0.750862  7.332922e-320             0             1  \n",
       "0   0.039655   3.214634e-01             0             1  \n",
       "0   0.346552   3.567084e-62             0             1  \n",
       "0   0.230172   2.410013e-27             0             1  \n",
       "0   0.262069   2.038600e-35             0             1  \n",
       "\n",
       "[3993 rows x 10 columns]"
      ]
     },
     "execution_count": 162,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "df_all_tests"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 163,
   "metadata": {},
   "outputs": [],
   "source": [
    "#variances_df.to_csv(results_folder + method+ 'variances.tsv', sep = '\\t')"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 164,
   "metadata": {},
   "outputs": [],
   "source": [
    "# df_ratio = pd.DataFrame(columns = ['method','choice','inpert','outpert','ratio','normWT'])\n",
    "# normal_by_wt =variances_df#-variances_df.loc['WT(ho)']\n",
    "# #sns.heatmap(normal_by_wt.loc[variances_df.columns,:], cmap = 'viridis')\n",
    "# inpert = (normal_by_wt.loc[variances_df.columns,:]*np.eye(len(variances_df.columns))).sum().sum()/np.sum(np.eye(len(variances_df.columns)))\n",
    "# outpert = -(normal_by_wt.loc[variances_df.columns,:]*(np.eye(len(variances_df.columns))-1)).sum().sum()/np.sum(-1*(np.eye(len(variances_df.columns))-1))\n",
    "# print(inpert, outpert, inpert/outpert)\n",
    "\n",
    "# df_ratio = pd.concat([df_ratio, pd.DataFrame({'method':method, 'choice':choice, 'inpert':[inpert], 'outpert':[outpert], 'ratio':[inpert/outpert], 'normWT':[0]})])\n",
    "# normal_by_wt =variances_df-variances_df.loc['WT(ho)']\n",
    "# #sns.heatmap(normal_by_wt.loc[variances_df.columns,:], cmap = 'viridis')\n",
    "# inpert = (normal_by_wt.loc[variances_df.columns,:]*np.eye(len(variances_df.columns))).sum().sum()/np.sum(np.eye(len(variances_df.columns)))\n",
    "# outpert = -(normal_by_wt.loc[variances_df.columns,:]*(np.eye(len(variances_df.columns))-1)).sum().sum()/np.sum(-1*(np.eye(len(variances_df.columns))-1))\n",
    "# print(inpert, outpert, inpert/outpert)\n",
    "# df_ratio = pd.concat([df_ratio, pd.DataFrame({'method':method, 'choice':choice, 'inpert':[inpert], 'outpert':[outpert], 'ratio':[inpert/outpert], 'normWT':[1]})])\n",
    "# df_ratio\n",
    "# df_ratio.to_csv(results_folder + method +'ratio_variances.csv', sep = '\\t', index = False)\n",
    "\n"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "df_ratio"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 165,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "'YEL009C'"
      ]
     },
     "execution_count": 165,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "gene_maps['gcn4']\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 169,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>WT(ho)_AmmoniumSulfate</th>\n",
       "      <th>WT(ho)_CStarve</th>\n",
       "      <th>WT(ho)_Glutamine</th>\n",
       "      <th>WT(ho)_MinimalEtOH</th>\n",
       "      <th>WT(ho)_MinimalGlucose</th>\n",
       "      <th>WT(ho)_Proline</th>\n",
       "      <th>WT(ho)_Urea</th>\n",
       "      <th>WT(ho)_YPD</th>\n",
       "      <th>WT(ho)_YPDDiauxic</th>\n",
       "      <th>WT(ho)_YPDRapa</th>\n",
       "      <th>...</th>\n",
       "      <th>stp2_CStarve</th>\n",
       "      <th>stp2_Glutamine</th>\n",
       "      <th>stp2_MinimalEtOH</th>\n",
       "      <th>stp2_MinimalGlucose</th>\n",
       "      <th>stp2_Proline</th>\n",
       "      <th>stp2_Urea</th>\n",
       "      <th>stp2_YPD</th>\n",
       "      <th>stp2_YPDDiauxic</th>\n",
       "      <th>stp2_YPDRapa</th>\n",
       "      <th>stp2_YPEtOH</th>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>edge</th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>YBR029C_YEL009C</th>\n",
       "      <td>0.011882</td>\n",
       "      <td>0.062096</td>\n",
       "      <td>0.030724</td>\n",
       "      <td>0.007613</td>\n",
       "      <td>0.032233</td>\n",
       "      <td>0.011454</td>\n",
       "      <td>0.118437</td>\n",
       "      <td>0.042527</td>\n",
       "      <td>-0.018912</td>\n",
       "      <td>0.018665</td>\n",
       "      <td>...</td>\n",
       "      <td>0.132167</td>\n",
       "      <td>0.009338</td>\n",
       "      <td>0.012761</td>\n",
       "      <td>0.036020</td>\n",
       "      <td>0.011601</td>\n",
       "      <td>0.025211</td>\n",
       "      <td>0.026241</td>\n",
       "      <td>-0.018569</td>\n",
       "      <td>0.003042</td>\n",
       "      <td>0.028949</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YBR159W_YEL009C</th>\n",
       "      <td>0.038004</td>\n",
       "      <td>0.055857</td>\n",
       "      <td>-0.003130</td>\n",
       "      <td>-0.001971</td>\n",
       "      <td>0.011247</td>\n",
       "      <td>0.026325</td>\n",
       "      <td>0.126528</td>\n",
       "      <td>0.059114</td>\n",
       "      <td>-0.000937</td>\n",
       "      <td>0.008782</td>\n",
       "      <td>...</td>\n",
       "      <td>0.158321</td>\n",
       "      <td>0.001231</td>\n",
       "      <td>0.001493</td>\n",
       "      <td>0.022410</td>\n",
       "      <td>0.012184</td>\n",
       "      <td>0.098421</td>\n",
       "      <td>0.043760</td>\n",
       "      <td>0.002552</td>\n",
       "      <td>0.001297</td>\n",
       "      <td>-0.002894</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YPR004C_YEL009C</th>\n",
       "      <td>0.014876</td>\n",
       "      <td>0.089607</td>\n",
       "      <td>0.018964</td>\n",
       "      <td>0.011636</td>\n",
       "      <td>0.040115</td>\n",
       "      <td>0.020053</td>\n",
       "      <td>0.039302</td>\n",
       "      <td>0.060449</td>\n",
       "      <td>-0.005614</td>\n",
       "      <td>0.003798</td>\n",
       "      <td>...</td>\n",
       "      <td>0.229099</td>\n",
       "      <td>0.004688</td>\n",
       "      <td>0.023487</td>\n",
       "      <td>0.040902</td>\n",
       "      <td>0.009520</td>\n",
       "      <td>0.020360</td>\n",
       "      <td>0.047638</td>\n",
       "      <td>-0.015491</td>\n",
       "      <td>-0.000601</td>\n",
       "      <td>0.011690</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YDR497C_YEL009C</th>\n",
       "      <td>0.021774</td>\n",
       "      <td>0.053926</td>\n",
       "      <td>0.032365</td>\n",
       "      <td>0.001408</td>\n",
       "      <td>0.035229</td>\n",
       "      <td>0.011063</td>\n",
       "      <td>0.098073</td>\n",
       "      <td>0.088138</td>\n",
       "      <td>-0.021592</td>\n",
       "      <td>0.022592</td>\n",
       "      <td>...</td>\n",
       "      <td>0.132212</td>\n",
       "      <td>0.012600</td>\n",
       "      <td>0.011457</td>\n",
       "      <td>0.039472</td>\n",
       "      <td>0.004746</td>\n",
       "      <td>0.070850</td>\n",
       "      <td>0.064457</td>\n",
       "      <td>-0.024482</td>\n",
       "      <td>0.003653</td>\n",
       "      <td>-0.006296</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YGR073C_YEL009C</th>\n",
       "      <td>0.002899</td>\n",
       "      <td>0.021847</td>\n",
       "      <td>0.027853</td>\n",
       "      <td>0.003114</td>\n",
       "      <td>-0.007514</td>\n",
       "      <td>0.037666</td>\n",
       "      <td>0.127500</td>\n",
       "      <td>0.055697</td>\n",
       "      <td>0.013630</td>\n",
       "      <td>-0.005833</td>\n",
       "      <td>...</td>\n",
       "      <td>0.108905</td>\n",
       "      <td>0.014459</td>\n",
       "      <td>0.004227</td>\n",
       "      <td>-0.002200</td>\n",
       "      <td>-0.009542</td>\n",
       "      <td>-0.008860</td>\n",
       "      <td>0.044049</td>\n",
       "      <td>-0.000707</td>\n",
       "      <td>-0.002217</td>\n",
       "      <td>0.035202</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>...</th>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>snR8_YEL009C</th>\n",
       "      <td>-0.011919</td>\n",
       "      <td>0.031320</td>\n",
       "      <td>0.013988</td>\n",
       "      <td>0.008162</td>\n",
       "      <td>-0.011621</td>\n",
       "      <td>0.016058</td>\n",
       "      <td>-0.027284</td>\n",
       "      <td>0.039161</td>\n",
       "      <td>-0.001320</td>\n",
       "      <td>0.017078</td>\n",
       "      <td>...</td>\n",
       "      <td>0.084955</td>\n",
       "      <td>-0.009547</td>\n",
       "      <td>0.048894</td>\n",
       "      <td>-0.002323</td>\n",
       "      <td>0.012790</td>\n",
       "      <td>0.007356</td>\n",
       "      <td>0.022545</td>\n",
       "      <td>-0.008227</td>\n",
       "      <td>0.002599</td>\n",
       "      <td>0.092007</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YDL100C_YEL009C</th>\n",
       "      <td>0.000367</td>\n",
       "      <td>0.050377</td>\n",
       "      <td>0.023481</td>\n",
       "      <td>0.002344</td>\n",
       "      <td>0.034494</td>\n",
       "      <td>0.039534</td>\n",
       "      <td>0.015992</td>\n",
       "      <td>-0.034526</td>\n",
       "      <td>-0.005098</td>\n",
       "      <td>-0.029111</td>\n",
       "      <td>...</td>\n",
       "      <td>0.126109</td>\n",
       "      <td>0.011264</td>\n",
       "      <td>0.006890</td>\n",
       "      <td>0.025406</td>\n",
       "      <td>0.026872</td>\n",
       "      <td>-0.013643</td>\n",
       "      <td>-0.030968</td>\n",
       "      <td>-0.011001</td>\n",
       "      <td>-0.005618</td>\n",
       "      <td>0.028305</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YEL009C_YER102W</th>\n",
       "      <td>0.008323</td>\n",
       "      <td>0.066533</td>\n",
       "      <td>0.019570</td>\n",
       "      <td>-0.004641</td>\n",
       "      <td>0.031954</td>\n",
       "      <td>0.014167</td>\n",
       "      <td>0.063881</td>\n",
       "      <td>-0.074510</td>\n",
       "      <td>-0.038355</td>\n",
       "      <td>0.011537</td>\n",
       "      <td>...</td>\n",
       "      <td>0.169804</td>\n",
       "      <td>0.010948</td>\n",
       "      <td>-0.004721</td>\n",
       "      <td>0.033991</td>\n",
       "      <td>0.014068</td>\n",
       "      <td>0.042323</td>\n",
       "      <td>-0.059674</td>\n",
       "      <td>-0.038268</td>\n",
       "      <td>0.001295</td>\n",
       "      <td>0.026168</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YPL218W_YEL009C</th>\n",
       "      <td>0.010632</td>\n",
       "      <td>0.078862</td>\n",
       "      <td>0.009280</td>\n",
       "      <td>-0.001763</td>\n",
       "      <td>0.020449</td>\n",
       "      <td>0.035370</td>\n",
       "      <td>0.038489</td>\n",
       "      <td>-0.032648</td>\n",
       "      <td>-0.007765</td>\n",
       "      <td>-0.038768</td>\n",
       "      <td>...</td>\n",
       "      <td>0.203545</td>\n",
       "      <td>0.001777</td>\n",
       "      <td>-0.000295</td>\n",
       "      <td>0.022063</td>\n",
       "      <td>0.034247</td>\n",
       "      <td>0.016249</td>\n",
       "      <td>-0.028687</td>\n",
       "      <td>-0.012219</td>\n",
       "      <td>-0.007109</td>\n",
       "      <td>0.033723</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YBR262C_YEL009C</th>\n",
       "      <td>-0.014406</td>\n",
       "      <td>0.045283</td>\n",
       "      <td>-0.002607</td>\n",
       "      <td>-0.002158</td>\n",
       "      <td>-0.003238</td>\n",
       "      <td>0.014818</td>\n",
       "      <td>-0.057224</td>\n",
       "      <td>0.035647</td>\n",
       "      <td>0.042675</td>\n",
       "      <td>0.002880</td>\n",
       "      <td>...</td>\n",
       "      <td>0.092956</td>\n",
       "      <td>-0.003955</td>\n",
       "      <td>0.011712</td>\n",
       "      <td>0.000339</td>\n",
       "      <td>0.016695</td>\n",
       "      <td>-0.035284</td>\n",
       "      <td>0.030813</td>\n",
       "      <td>0.039458</td>\n",
       "      <td>0.000363</td>\n",
       "      <td>0.047086</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "<p>1160 rows × 132 columns</p>\n",
       "</div>"
      ],
      "text/plain": [
       "                 WT(ho)_AmmoniumSulfate  WT(ho)_CStarve  WT(ho)_Glutamine  \\\n",
       "edge                                                                        \n",
       "YBR029C_YEL009C                0.011882        0.062096          0.030724   \n",
       "YBR159W_YEL009C                0.038004        0.055857         -0.003130   \n",
       "YPR004C_YEL009C                0.014876        0.089607          0.018964   \n",
       "YDR497C_YEL009C                0.021774        0.053926          0.032365   \n",
       "YGR073C_YEL009C                0.002899        0.021847          0.027853   \n",
       "...                                 ...             ...               ...   \n",
       "snR8_YEL009C                  -0.011919        0.031320          0.013988   \n",
       "YDL100C_YEL009C                0.000367        0.050377          0.023481   \n",
       "YEL009C_YER102W                0.008323        0.066533          0.019570   \n",
       "YPL218W_YEL009C                0.010632        0.078862          0.009280   \n",
       "YBR262C_YEL009C               -0.014406        0.045283         -0.002607   \n",
       "\n",
       "                 WT(ho)_MinimalEtOH  WT(ho)_MinimalGlucose  WT(ho)_Proline  \\\n",
       "edge                                                                         \n",
       "YBR029C_YEL009C            0.007613               0.032233        0.011454   \n",
       "YBR159W_YEL009C           -0.001971               0.011247        0.026325   \n",
       "YPR004C_YEL009C            0.011636               0.040115        0.020053   \n",
       "YDR497C_YEL009C            0.001408               0.035229        0.011063   \n",
       "YGR073C_YEL009C            0.003114              -0.007514        0.037666   \n",
       "...                             ...                    ...             ...   \n",
       "snR8_YEL009C               0.008162              -0.011621        0.016058   \n",
       "YDL100C_YEL009C            0.002344               0.034494        0.039534   \n",
       "YEL009C_YER102W           -0.004641               0.031954        0.014167   \n",
       "YPL218W_YEL009C           -0.001763               0.020449        0.035370   \n",
       "YBR262C_YEL009C           -0.002158              -0.003238        0.014818   \n",
       "\n",
       "                 WT(ho)_Urea  WT(ho)_YPD  WT(ho)_YPDDiauxic  WT(ho)_YPDRapa  \\\n",
       "edge                                                                          \n",
       "YBR029C_YEL009C     0.118437    0.042527          -0.018912        0.018665   \n",
       "YBR159W_YEL009C     0.126528    0.059114          -0.000937        0.008782   \n",
       "YPR004C_YEL009C     0.039302    0.060449          -0.005614        0.003798   \n",
       "YDR497C_YEL009C     0.098073    0.088138          -0.021592        0.022592   \n",
       "YGR073C_YEL009C     0.127500    0.055697           0.013630       -0.005833   \n",
       "...                      ...         ...                ...             ...   \n",
       "snR8_YEL009C       -0.027284    0.039161          -0.001320        0.017078   \n",
       "YDL100C_YEL009C     0.015992   -0.034526          -0.005098       -0.029111   \n",
       "YEL009C_YER102W     0.063881   -0.074510          -0.038355        0.011537   \n",
       "YPL218W_YEL009C     0.038489   -0.032648          -0.007765       -0.038768   \n",
       "YBR262C_YEL009C    -0.057224    0.035647           0.042675        0.002880   \n",
       "\n",
       "                 ...  stp2_CStarve  stp2_Glutamine  stp2_MinimalEtOH  \\\n",
       "edge             ...                                                   \n",
       "YBR029C_YEL009C  ...      0.132167        0.009338          0.012761   \n",
       "YBR159W_YEL009C  ...      0.158321        0.001231          0.001493   \n",
       "YPR004C_YEL009C  ...      0.229099        0.004688          0.023487   \n",
       "YDR497C_YEL009C  ...      0.132212        0.012600          0.011457   \n",
       "YGR073C_YEL009C  ...      0.108905        0.014459          0.004227   \n",
       "...              ...           ...             ...               ...   \n",
       "snR8_YEL009C     ...      0.084955       -0.009547          0.048894   \n",
       "YDL100C_YEL009C  ...      0.126109        0.011264          0.006890   \n",
       "YEL009C_YER102W  ...      0.169804        0.010948         -0.004721   \n",
       "YPL218W_YEL009C  ...      0.203545        0.001777         -0.000295   \n",
       "YBR262C_YEL009C  ...      0.092956       -0.003955          0.011712   \n",
       "\n",
       "                 stp2_MinimalGlucose  stp2_Proline  stp2_Urea  stp2_YPD  \\\n",
       "edge                                                                      \n",
       "YBR029C_YEL009C             0.036020      0.011601   0.025211  0.026241   \n",
       "YBR159W_YEL009C             0.022410      0.012184   0.098421  0.043760   \n",
       "YPR004C_YEL009C             0.040902      0.009520   0.020360  0.047638   \n",
       "YDR497C_YEL009C             0.039472      0.004746   0.070850  0.064457   \n",
       "YGR073C_YEL009C            -0.002200     -0.009542  -0.008860  0.044049   \n",
       "...                              ...           ...        ...       ...   \n",
       "snR8_YEL009C               -0.002323      0.012790   0.007356  0.022545   \n",
       "YDL100C_YEL009C             0.025406      0.026872  -0.013643 -0.030968   \n",
       "YEL009C_YER102W             0.033991      0.014068   0.042323 -0.059674   \n",
       "YPL218W_YEL009C             0.022063      0.034247   0.016249 -0.028687   \n",
       "YBR262C_YEL009C             0.000339      0.016695  -0.035284  0.030813   \n",
       "\n",
       "                 stp2_YPDDiauxic  stp2_YPDRapa  stp2_YPEtOH  \n",
       "edge                                                         \n",
       "YBR029C_YEL009C        -0.018569      0.003042     0.028949  \n",
       "YBR159W_YEL009C         0.002552      0.001297    -0.002894  \n",
       "YPR004C_YEL009C        -0.015491     -0.000601     0.011690  \n",
       "YDR497C_YEL009C        -0.024482      0.003653    -0.006296  \n",
       "YGR073C_YEL009C        -0.000707     -0.002217     0.035202  \n",
       "...                          ...           ...          ...  \n",
       "snR8_YEL009C           -0.008227      0.002599     0.092007  \n",
       "YDL100C_YEL009C        -0.011001     -0.005618     0.028305  \n",
       "YEL009C_YER102W        -0.038268      0.001295     0.026168  \n",
       "YPL218W_YEL009C        -0.012219     -0.007109     0.033723  \n",
       "YBR262C_YEL009C         0.039458      0.000363     0.047086  \n",
       "\n",
       "[1160 rows x 132 columns]"
      ]
     },
     "execution_count": 169,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "geneoi = gene_maps['gcn4']\n",
    "ddd['perturbed'] = (ddd['gene2']==geneoi) | (ddd['gene1']==geneoi)\n",
    "\n",
    "# We need to remove duplicated from/to edges of perturbation nodes\n",
    "a = (set(ddd[ddd['perturbed']].index.tolist()).intersection(set(ddd[ddd['perturbed']]['edge_reversed'].tolist())))\n",
    "a = [i for i in list(a) if i.startswith(geneoi)]\n",
    "ddd = ddd.loc[~ddd.index.isin(a),:]\n",
    "temp = (ddd[ddd['perturbed']]).iloc[:,2:-2]\n",
    "\n",
    "iloc_wt = [i.startswith('WT') for i in temp.columns.tolist()]\n",
    "#iloc_other = [not i.startswith(deletion_oi) for i in temp.columns.tolist()]\n",
    "#mwt = temp.iloc[:,iloc_wt].mean(axis = 1).sort_values( ascending = False)\n",
    "mwt = temp.iloc[:,iloc_wt].mean(axis = 1).abs().sort_values( ascending = False)\n",
    "edgestop = mwt.iloc[:k_edges].index.tolist()\n",
    "\n",
    "\n",
    "temp.loc[edgestop,:]"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 170,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "<Axes: ylabel='edge'>"
      ]
     },
     "execution_count": 170,
     "metadata": {},
     "output_type": "execute_result"
    },
    {
     "data": {
      "image/png": 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",
      "text/plain": [
       "<Figure size 640x480 with 2 Axes>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "sns.heatmap(temp.loc[edgestop,:], cmap = 'viridis')\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 167,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/html": [
       "<div>\n",
       "<style scoped>\n",
       "    .dataframe tbody tr th:only-of-type {\n",
       "        vertical-align: middle;\n",
       "    }\n",
       "\n",
       "    .dataframe tbody tr th {\n",
       "        vertical-align: top;\n",
       "    }\n",
       "\n",
       "    .dataframe thead th {\n",
       "        text-align: right;\n",
       "    }\n",
       "</style>\n",
       "<table border=\"1\" class=\"dataframe\">\n",
       "  <thead>\n",
       "    <tr style=\"text-align: right;\">\n",
       "      <th></th>\n",
       "      <th>WT(ho)_AmmoniumSulfate</th>\n",
       "      <th>WT(ho)_CStarve</th>\n",
       "      <th>WT(ho)_Glutamine</th>\n",
       "      <th>WT(ho)_MinimalEtOH</th>\n",
       "      <th>WT(ho)_MinimalGlucose</th>\n",
       "      <th>WT(ho)_Proline</th>\n",
       "      <th>WT(ho)_Urea</th>\n",
       "      <th>WT(ho)_YPD</th>\n",
       "      <th>WT(ho)_YPDDiauxic</th>\n",
       "      <th>WT(ho)_YPDRapa</th>\n",
       "      <th>...</th>\n",
       "      <th>stp2_CStarve</th>\n",
       "      <th>stp2_Glutamine</th>\n",
       "      <th>stp2_MinimalEtOH</th>\n",
       "      <th>stp2_MinimalGlucose</th>\n",
       "      <th>stp2_Proline</th>\n",
       "      <th>stp2_Urea</th>\n",
       "      <th>stp2_YPD</th>\n",
       "      <th>stp2_YPDDiauxic</th>\n",
       "      <th>stp2_YPDRapa</th>\n",
       "      <th>stp2_YPEtOH</th>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>edge</th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "      <th></th>\n",
       "    </tr>\n",
       "  </thead>\n",
       "  <tbody>\n",
       "    <tr>\n",
       "      <th>LSR1_YEL009C</th>\n",
       "      <td>-0.005559</td>\n",
       "      <td>0.022803</td>\n",
       "      <td>0.009922</td>\n",
       "      <td>0.016011</td>\n",
       "      <td>-0.004753</td>\n",
       "      <td>0.008697</td>\n",
       "      <td>0.035934</td>\n",
       "      <td>0.040455</td>\n",
       "      <td>-0.007809</td>\n",
       "      <td>0.013278</td>\n",
       "      <td>...</td>\n",
       "      <td>0.006845</td>\n",
       "      <td>-0.007033</td>\n",
       "      <td>0.018157</td>\n",
       "      <td>0.010297</td>\n",
       "      <td>0.019962</td>\n",
       "      <td>0.004743</td>\n",
       "      <td>0.049638</td>\n",
       "      <td>-0.007474</td>\n",
       "      <td>0.002797</td>\n",
       "      <td>-0.014456</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>NME1_YEL009C</th>\n",
       "      <td>-0.011227</td>\n",
       "      <td>0.029501</td>\n",
       "      <td>0.000770</td>\n",
       "      <td>-0.004454</td>\n",
       "      <td>0.008923</td>\n",
       "      <td>0.015125</td>\n",
       "      <td>-0.050365</td>\n",
       "      <td>0.029416</td>\n",
       "      <td>-0.007298</td>\n",
       "      <td>0.010688</td>\n",
       "      <td>...</td>\n",
       "      <td>0.080020</td>\n",
       "      <td>-0.000276</td>\n",
       "      <td>-0.008894</td>\n",
       "      <td>0.036554</td>\n",
       "      <td>-0.006533</td>\n",
       "      <td>-0.028221</td>\n",
       "      <td>0.006771</td>\n",
       "      <td>0.000241</td>\n",
       "      <td>0.001639</td>\n",
       "      <td>0.074142</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>RPR1_YEL009C</th>\n",
       "      <td>-0.011700</td>\n",
       "      <td>0.010127</td>\n",
       "      <td>0.006427</td>\n",
       "      <td>-0.004641</td>\n",
       "      <td>0.023297</td>\n",
       "      <td>0.015762</td>\n",
       "      <td>-0.033356</td>\n",
       "      <td>0.042626</td>\n",
       "      <td>-0.015142</td>\n",
       "      <td>0.014831</td>\n",
       "      <td>...</td>\n",
       "      <td>0.043362</td>\n",
       "      <td>0.020987</td>\n",
       "      <td>0.008217</td>\n",
       "      <td>0.038668</td>\n",
       "      <td>0.012554</td>\n",
       "      <td>0.011306</td>\n",
       "      <td>0.027832</td>\n",
       "      <td>-0.015209</td>\n",
       "      <td>0.002615</td>\n",
       "      <td>-0.014178</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>TLC1_YEL009C</th>\n",
       "      <td>-0.002368</td>\n",
       "      <td>0.057238</td>\n",
       "      <td>0.018972</td>\n",
       "      <td>0.010749</td>\n",
       "      <td>-0.003965</td>\n",
       "      <td>0.034786</td>\n",
       "      <td>0.027237</td>\n",
       "      <td>-0.068751</td>\n",
       "      <td>-0.019590</td>\n",
       "      <td>-0.011899</td>\n",
       "      <td>...</td>\n",
       "      <td>0.122633</td>\n",
       "      <td>0.009458</td>\n",
       "      <td>0.006031</td>\n",
       "      <td>0.009802</td>\n",
       "      <td>0.027707</td>\n",
       "      <td>0.093770</td>\n",
       "      <td>-0.064038</td>\n",
       "      <td>-0.015364</td>\n",
       "      <td>-0.003018</td>\n",
       "      <td>0.020681</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>YBL001C_YEL009C</th>\n",
       "      <td>-0.022624</td>\n",
       "      <td>0.009136</td>\n",
       "      <td>0.000803</td>\n",
       "      <td>0.003887</td>\n",
       "      <td>0.009746</td>\n",
       "      <td>0.015789</td>\n",
       "      <td>-0.118327</td>\n",
       "      <td>0.052408</td>\n",
       "      <td>0.028211</td>\n",
       "      <td>-0.009744</td>\n",
       "      <td>...</td>\n",
       "      <td>-0.001429</td>\n",
       "      <td>-0.003227</td>\n",
       "      <td>0.008183</td>\n",
       "      <td>0.012118</td>\n",
       "      <td>0.012044</td>\n",
       "      <td>-0.066844</td>\n",
       "      <td>0.035652</td>\n",
       "      <td>0.024488</td>\n",
       "      <td>-0.001526</td>\n",
       "      <td>0.050450</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>...</th>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "      <td>...</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>snR83_YEL009C</th>\n",
       "      <td>0.004412</td>\n",
       "      <td>0.051917</td>\n",
       "      <td>0.000059</td>\n",
       "      <td>-0.007838</td>\n",
       "      <td>0.006239</td>\n",
       "      <td>-0.013674</td>\n",
       "      <td>-0.028807</td>\n",
       "      <td>0.025832</td>\n",
       "      <td>-0.001395</td>\n",
       "      <td>0.008722</td>\n",
       "      <td>...</td>\n",
       "      <td>0.140824</td>\n",
       "      <td>-0.001232</td>\n",
       "      <td>0.011783</td>\n",
       "      <td>0.005985</td>\n",
       "      <td>-0.019929</td>\n",
       "      <td>0.096917</td>\n",
       "      <td>0.003017</td>\n",
       "      <td>-0.017354</td>\n",
       "      <td>0.003261</td>\n",
       "      <td>-0.011448</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>snR84_YEL009C</th>\n",
       "      <td>-0.008757</td>\n",
       "      <td>0.039359</td>\n",
       "      <td>0.011733</td>\n",
       "      <td>0.003062</td>\n",
       "      <td>-0.009682</td>\n",
       "      <td>0.012969</td>\n",
       "      <td>0.109708</td>\n",
       "      <td>-0.042834</td>\n",
       "      <td>-0.024535</td>\n",
       "      <td>0.016529</td>\n",
       "      <td>...</td>\n",
       "      <td>0.127991</td>\n",
       "      <td>0.009162</td>\n",
       "      <td>-0.016962</td>\n",
       "      <td>-0.013728</td>\n",
       "      <td>0.006734</td>\n",
       "      <td>0.028753</td>\n",
       "      <td>-0.045571</td>\n",
       "      <td>-0.027834</td>\n",
       "      <td>0.004208</td>\n",
       "      <td>0.021018</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>snR85_YEL009C</th>\n",
       "      <td>-0.004200</td>\n",
       "      <td>-0.020304</td>\n",
       "      <td>-0.005320</td>\n",
       "      <td>-0.001666</td>\n",
       "      <td>-0.006331</td>\n",
       "      <td>0.005658</td>\n",
       "      <td>-0.018841</td>\n",
       "      <td>-0.017608</td>\n",
       "      <td>-0.005436</td>\n",
       "      <td>0.006017</td>\n",
       "      <td>...</td>\n",
       "      <td>0.029934</td>\n",
       "      <td>-0.003364</td>\n",
       "      <td>-0.003327</td>\n",
       "      <td>-0.006398</td>\n",
       "      <td>0.004507</td>\n",
       "      <td>-0.010557</td>\n",
       "      <td>0.001646</td>\n",
       "      <td>-0.005460</td>\n",
       "      <td>0.001006</td>\n",
       "      <td>-0.008208</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>snR86_YEL009C</th>\n",
       "      <td>-0.000635</td>\n",
       "      <td>0.009274</td>\n",
       "      <td>0.004461</td>\n",
       "      <td>-0.001904</td>\n",
       "      <td>-0.015203</td>\n",
       "      <td>0.018297</td>\n",
       "      <td>-0.029055</td>\n",
       "      <td>0.034253</td>\n",
       "      <td>-0.011007</td>\n",
       "      <td>-0.000111</td>\n",
       "      <td>...</td>\n",
       "      <td>-0.041999</td>\n",
       "      <td>0.012226</td>\n",
       "      <td>0.049145</td>\n",
       "      <td>-0.013143</td>\n",
       "      <td>0.008702</td>\n",
       "      <td>-0.007329</td>\n",
       "      <td>0.034846</td>\n",
       "      <td>-0.013958</td>\n",
       "      <td>-0.000107</td>\n",
       "      <td>-0.011589</td>\n",
       "    </tr>\n",
       "    <tr>\n",
       "      <th>snR9_YEL009C</th>\n",
       "      <td>-0.018401</td>\n",
       "      <td>0.037929</td>\n",
       "      <td>0.000653</td>\n",
       "      <td>-0.000173</td>\n",
       "      <td>-0.013805</td>\n",
       "      <td>0.024790</td>\n",
       "      <td>-0.039407</td>\n",
       "      <td>0.000846</td>\n",
       "      <td>-0.002603</td>\n",
       "      <td>-0.002997</td>\n",
       "      <td>...</td>\n",
       "      <td>0.115974</td>\n",
       "      <td>0.029907</td>\n",
       "      <td>0.047384</td>\n",
       "      <td>0.003564</td>\n",
       "      <td>0.014713</td>\n",
       "      <td>-0.025624</td>\n",
       "      <td>0.020890</td>\n",
       "      <td>-0.002137</td>\n",
       "      <td>-0.001292</td>\n",
       "      <td>-0.009938</td>\n",
       "    </tr>\n",
       "  </tbody>\n",
       "</table>\n",
       "<p>5803 rows × 132 columns</p>\n",
       "</div>"
      ],
      "text/plain": [
       "                 WT(ho)_AmmoniumSulfate  WT(ho)_CStarve  WT(ho)_Glutamine  \\\n",
       "edge                                                                        \n",
       "LSR1_YEL009C                  -0.005559        0.022803          0.009922   \n",
       "NME1_YEL009C                  -0.011227        0.029501          0.000770   \n",
       "RPR1_YEL009C                  -0.011700        0.010127          0.006427   \n",
       "TLC1_YEL009C                  -0.002368        0.057238          0.018972   \n",
       "YBL001C_YEL009C               -0.022624        0.009136          0.000803   \n",
       "...                                 ...             ...               ...   \n",
       "snR83_YEL009C                  0.004412        0.051917          0.000059   \n",
       "snR84_YEL009C                 -0.008757        0.039359          0.011733   \n",
       "snR85_YEL009C                 -0.004200       -0.020304         -0.005320   \n",
       "snR86_YEL009C                 -0.000635        0.009274          0.004461   \n",
       "snR9_YEL009C                  -0.018401        0.037929          0.000653   \n",
       "\n",
       "                 WT(ho)_MinimalEtOH  WT(ho)_MinimalGlucose  WT(ho)_Proline  \\\n",
       "edge                                                                         \n",
       "LSR1_YEL009C               0.016011              -0.004753        0.008697   \n",
       "NME1_YEL009C              -0.004454               0.008923        0.015125   \n",
       "RPR1_YEL009C              -0.004641               0.023297        0.015762   \n",
       "TLC1_YEL009C               0.010749              -0.003965        0.034786   \n",
       "YBL001C_YEL009C            0.003887               0.009746        0.015789   \n",
       "...                             ...                    ...             ...   \n",
       "snR83_YEL009C             -0.007838               0.006239       -0.013674   \n",
       "snR84_YEL009C              0.003062              -0.009682        0.012969   \n",
       "snR85_YEL009C             -0.001666              -0.006331        0.005658   \n",
       "snR86_YEL009C             -0.001904              -0.015203        0.018297   \n",
       "snR9_YEL009C              -0.000173              -0.013805        0.024790   \n",
       "\n",
       "                 WT(ho)_Urea  WT(ho)_YPD  WT(ho)_YPDDiauxic  WT(ho)_YPDRapa  \\\n",
       "edge                                                                          \n",
       "LSR1_YEL009C        0.035934    0.040455          -0.007809        0.013278   \n",
       "NME1_YEL009C       -0.050365    0.029416          -0.007298        0.010688   \n",
       "RPR1_YEL009C       -0.033356    0.042626          -0.015142        0.014831   \n",
       "TLC1_YEL009C        0.027237   -0.068751          -0.019590       -0.011899   \n",
       "YBL001C_YEL009C    -0.118327    0.052408           0.028211       -0.009744   \n",
       "...                      ...         ...                ...             ...   \n",
       "snR83_YEL009C      -0.028807    0.025832          -0.001395        0.008722   \n",
       "snR84_YEL009C       0.109708   -0.042834          -0.024535        0.016529   \n",
       "snR85_YEL009C      -0.018841   -0.017608          -0.005436        0.006017   \n",
       "snR86_YEL009C      -0.029055    0.034253          -0.011007       -0.000111   \n",
       "snR9_YEL009C       -0.039407    0.000846          -0.002603       -0.002997   \n",
       "\n",
       "                 ...  stp2_CStarve  stp2_Glutamine  stp2_MinimalEtOH  \\\n",
       "edge             ...                                                   \n",
       "LSR1_YEL009C     ...      0.006845       -0.007033          0.018157   \n",
       "NME1_YEL009C     ...      0.080020       -0.000276         -0.008894   \n",
       "RPR1_YEL009C     ...      0.043362        0.020987          0.008217   \n",
       "TLC1_YEL009C     ...      0.122633        0.009458          0.006031   \n",
       "YBL001C_YEL009C  ...     -0.001429       -0.003227          0.008183   \n",
       "...              ...           ...             ...               ...   \n",
       "snR83_YEL009C    ...      0.140824       -0.001232          0.011783   \n",
       "snR84_YEL009C    ...      0.127991        0.009162         -0.016962   \n",
       "snR85_YEL009C    ...      0.029934       -0.003364         -0.003327   \n",
       "snR86_YEL009C    ...     -0.041999        0.012226          0.049145   \n",
       "snR9_YEL009C     ...      0.115974        0.029907          0.047384   \n",
       "\n",
       "                 stp2_MinimalGlucose  stp2_Proline  stp2_Urea  stp2_YPD  \\\n",
       "edge                                                                      \n",
       "LSR1_YEL009C                0.010297      0.019962   0.004743  0.049638   \n",
       "NME1_YEL009C                0.036554     -0.006533  -0.028221  0.006771   \n",
       "RPR1_YEL009C                0.038668      0.012554   0.011306  0.027832   \n",
       "TLC1_YEL009C                0.009802      0.027707   0.093770 -0.064038   \n",
       "YBL001C_YEL009C             0.012118      0.012044  -0.066844  0.035652   \n",
       "...                              ...           ...        ...       ...   \n",
       "snR83_YEL009C               0.005985     -0.019929   0.096917  0.003017   \n",
       "snR84_YEL009C              -0.013728      0.006734   0.028753 -0.045571   \n",
       "snR85_YEL009C              -0.006398      0.004507  -0.010557  0.001646   \n",
       "snR86_YEL009C              -0.013143      0.008702  -0.007329  0.034846   \n",
       "snR9_YEL009C                0.003564      0.014713  -0.025624  0.020890   \n",
       "\n",
       "                 stp2_YPDDiauxic  stp2_YPDRapa  stp2_YPEtOH  \n",
       "edge                                                         \n",
       "LSR1_YEL009C           -0.007474      0.002797    -0.014456  \n",
       "NME1_YEL009C            0.000241      0.001639     0.074142  \n",
       "RPR1_YEL009C           -0.015209      0.002615    -0.014178  \n",
       "TLC1_YEL009C           -0.015364     -0.003018     0.020681  \n",
       "YBL001C_YEL009C         0.024488     -0.001526     0.050450  \n",
       "...                          ...           ...          ...  \n",
       "snR83_YEL009C          -0.017354      0.003261    -0.011448  \n",
       "snR84_YEL009C          -0.027834      0.004208     0.021018  \n",
       "snR85_YEL009C          -0.005460      0.001006    -0.008208  \n",
       "snR86_YEL009C          -0.013958     -0.000107    -0.011589  \n",
       "snR9_YEL009C           -0.002137     -0.001292    -0.009938  \n",
       "\n",
       "[5803 rows x 132 columns]"
      ]
     },
     "execution_count": 167,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "temp"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  }
 ],
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